Root Cause Analysis of Systems Failure Training Overview
Commitment | 2 Days, 7-8 hours a day. |
Language | English |
User Ratings | Average User Rating 4.8 See what learners said |
Price | REQUEST |
Delivery Options | Instructor-Led Onsite, Online, and Classroom Live |
COURSE OVERVIEW
Root Cause Analysis of Systems Failure Training Overview tutorial brings together essential concepts from engineering, quality assurance, problem-solving, procurement, and other disciplines to identify and eliminate the root causes of failures occurring in complex systems, subsystems, and components. This Root Cause Analysis of Systems Failure Training Overview course emphasizes the development and implementation of a failure analysis methodology for use throughout the organization.
We will show you how to utilize brainstorming, Ishikawa diagrams, mind mapping, and fault tree analysis for identifying potential failure causes. We will also arm you with procedures and technologies for working through various types of system failures. We will learn how hardware analysis, statistical analysis, design of experiments, technical data package evaluation, and other pertinent tools and techniques can be brought together to define potential root failure causes and to develop a plan for evaluating these causes.
The Root Cause Analysis of Systems Failure Training Overview course presents corrective action alternatives and a framework for selecting optimal intermediate and longer-term corrective actions. The Root Cause Analysis of Systems Failure Overview course utilizes real-life case studies to help you apply this toolkit effectively to your job. At the end of the Root Cause Analysis of Systems Failure Training course, you will have learned how to identify dominant failure modes through quantity and cost-based Pareto analyses, identify the root causes of systems failures, select and implement effective corrective actions, and work as an inter-organizational, multi-disciplinary failure analysis team.
WHAT'S INCLUDED?
- 2 days of Root Cause Analysis of Systems Failure Training Overview with an expert instructor
- Root Cause Analysis of Systems Failure Overview Electronic Course Guide
- Certificate of Completion
- 100% Satisfaction Guarantee
RESOURCES
- Root Cause Analysis of Systems Failure Overview – https://www.wiley.com/
- Root Cause Analysis of Systems Failure Overview – https://www.packtpub.com/
- Root Cause Analysis of Systems Failure Overview – https://store.logicaloperations.com/
- Root Cause Analysis of Systems Failure Overview – https://us.artechhouse.com/
- Root Cause Analysis of Systems Failure Training Overview – https://www.amazon.com/
RELATED COURSES
- Failure Modes and Effects Analysis Training
- Root Cause Analysis of Component Failure Comprehensive Training
- Root Cause Analysis of Systems Failure Training In Depth
- Root Cause Failure Analysis: Workshop and Simulation Training
- Root Cause Failure Analysis and Experiment Design Training
- Root Cause Analysis Training for Non-Engineers
ADDITIONAL INFORMATION
COURSE OBJECTIVES
Upon completing this Root Cause Analysis of Systems Failure Overview course, learners will be able to meet these objectives:
- Work together in an effective multi-disciplinary team environment to resolve complex system failures.
- Objectively identify all potential failure causes using fault tree analysis and other technologies.
- Objectively evaluate the likelihood of each potential failure cause.
- Identify the most likely failure causes.
- Proactively eliminate additional potential failure causes before they occur.
CUSTOMIZE IT
- We can adapt this Root Cause Analysis of Systems Failure Overview course to your group’s background and work requirements at little to no added cost.
- If you are familiar with some aspects of this Root Cause Analysis of Systems Failure course, we can omit or shorten their discussion.
- We can adjust the emphasis placed on the various topics or build the Root Cause Analysis of Systems Failure course around the mix of technologies of interest to you (including technologies other than those included in this outline).
- If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the Root Cause Analysis of Systems Failure course in a manner understandable to lay audiences.
AUDIENCE/TARGET GROUP
The target audience for this Root Cause Analysis of Systems Failure Overview course:
- This course is aimed at engineers, project engineers, design engineers, process engineers, program managers, and others responsible for preventing or determining the causes of systems failures.
CLASS PREREQUISITES
The knowledge and skills that a learner must have before attending this Root Cause Analysis of Systems Failure Overview course are:
- While there are no formal prerequisites, the course does assume a process, industrial, manufacturing, or engineering background.
COURSE SYLLABUS
Day 1: Introduction to Systems Failure Analysis
- The need for efficient systems failure analysis
- Systems failure analysis philosophy
- The four-step problem-solving approach
- Systems and component failure analyses
- The inherent value of failed hardware
- Continuous improvement concepts and systems failure analysis
- Quality measurement and reporting concepts
- Using failure analysis as a preventive measure
- The value of a priori failure cause identification
- Brainstorming, mind-mapping, and Ishikawa diagrams
- Fault tree analysis history, applications, and capabilities
- Fault tree analysis construction
- Fault tree gate usage and interpretation
- Quantifying top undesired events
- Using fault trees to identify redundancy-defeating failure modes
- Case study
Day 2: Isolating Failure Causes and Corrective Action
- Evaluating potential failure modes
- Using Failure Mode Assessment and Assignment (FMA&A) matrices
- “What’s Different” analysis
- Test and inspection data, material certifications, and SPC data
- Using flow charts for product performance and process evaluations
- Interviewing techniques for use with assembly, test, and inspection personnel.
- Failed hardware analysis
- Evaluating failed hardware conformance
- Component failure analysis technologies, including optical microscopy, SEM, FTIR, EDAX, X-ray, N-ray, SIMS, and Auger analysis
- Basic metallurgical and electronic component evaluations
- Evaluating leaks
- Designing tests to confirm failure causes
- Corrective action alternatives, including design modifications, process modifications, requirements relaxation, screening, and other corrective actions.
- Using the FMA&A matrix for corrective action identification and tracking
- A suggested failure analysis procedure
- Creating a product-oriented Lessons Learned document
- Recap, Q/A, and evaluations